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#!/usr/bin/env python3
# logging.basicConfig(level=logging.DEBUG)
import argparse
import json
import logging
import math
import os
import re
import socket
import stat
import traceback
from collections import deque, namedtuple, UserDict, defaultdict
from concurrent import futures
from datetime import datetime, timezone
from functools import lru_cache
from http.client import HTTPConnection
from sys import argv
from urllib import request
from urllib.error import HTTPError, URLError
from urllib.request import AbstractHTTPHandler, HTTPHandler, HTTPSHandler, OpenerDirector, HTTPRedirectHandler, \
Request, HTTPBasicAuthHandler
logger = logging.getLogger()
__author__ = 'Tim Laurence'
__copyright__ = "Copyright 2019"
__credits__ = ['Tim Laurence']
__license__ = "GPL"
__version__ = "2.2.2"
'''
nrpe compatible check for docker containers.
Requires Python 3
Note: I really would have preferred to have used requests for all the network connections but that would have added a
dependency.
'''
DEFAULT_SOCKET = '/var/run/docker.sock'
DEFAULT_TIMEOUT = 10.0
DEFAULT_PORT = 2375
DEFAULT_MEMORY_UNITS = 'B'
DEFAULT_HEADERS = [('Accept', 'application/vnd.docker.distribution.manifest.v2+json')]
DEFAULT_PUBLIC_REGISTRY = 'registry-1.docker.io'
# The second value is the power to raise the base to.
UNIT_ADJUSTMENTS_TEMPLATE = {
'%': 0,
'B': 0,
'KB': 1,
'MB': 2,
'GB': 3,
'TB': 4
}
unit_adjustments = None
# Reduce message to a single OK unless a checks fail.
no_ok = False
# Suppress performance data reporting
no_performance = False
OK_RC = 0
WARNING_RC = 1
CRITICAL_RC = 2
UNKNOWN_RC = 3
# These hold the final results
rc = -1
messages = []
performance_data = []
ImageName = namedtuple('ImageName', "registry name tag full_name")
class ThresholdSpec(UserDict):
def __init__(self, warn, crit, units=''):
super().__init__(warn=warn, crit=crit, units=units)
def __getattr__(self, item):
if item in ('warn', 'crit', 'units'):
return self.data[item]
return super().__getattr__(item)
# How much threading can we do? We are generally not CPU bound so I am using this a worse case cap
DEFAULT_PARALLELISM = 10
# Holds list of all threads
threads = []
# This is used during testing
DISABLE_THREADING = False
# Hacked up urllib to handle sockets
#############################################################################################
# Docker runs a http connection over a socket. http.client is knows how to deal with these
# but lacks some niceties. Urllib wraps that and makes up for some of the deficiencies but
# cannot fix the fact http.client can't read from socket files. In order to take advantage of
# urllib and http.client's capabilities the class below tweaks HttpConnection and passes it
# to urllib registering for socket:// connections
# This is all side effect so excluding coverage
class SocketFileHandler(AbstractHTTPHandler):
class SocketFileToHttpConnectionAdaptor(HTTPConnection): # pragma: no cover
def __init__(self, socket_file, timeout=DEFAULT_TIMEOUT):
super().__init__(host='', port=0, timeout=timeout)
self.socket_file = socket_file
def connect(self):
self.sock = socket.socket(family=socket.AF_UNIX, type=socket.SOCK_STREAM, proto=0, fileno=None)
self.sock.settimeout(self.timeout)
self.sock.connect(self.socket_file)
def socket_open(self, req):
socket_file, path = req.selector.split(':', 1)
req.host = socket_file
req.selector = path
return self.do_open(self.SocketFileToHttpConnectionAdaptor, req)
# Tokens are not cached because I expect the callers to cache the responses
class Oauth2TokenAuthHandler(HTTPBasicAuthHandler):
auth_failure_tracker = defaultdict(int)
def http_response(self, request, response):
code, hdrs = response.code, response.headers
www_authenticate_header = response.headers.get('www-authenticate', None)
if code == 401 and www_authenticate_header:
scheme = www_authenticate_header.split()[0]
if scheme.lower() == 'bearer':
return self.process_oauth2(request, response, www_authenticate_header)
return response
https_response = http_response
@staticmethod
def _get_outh2_token(www_authenticate_header):
auth_fields = dict(re.findall(r"""(?:(?P<key>[^ ,=]+)="([^"]+)")""", www_authenticate_header))
auth_url = "{realm}?scope={scope}&service={service}".format(
realm=auth_fields['realm'],
scope=auth_fields['scope'],
service=auth_fields['service'],
)
token_request = Request(auth_url)
token_request.add_header("Content-Type", "application/x-www-form-urlencoded; charset=utf-8")
token_response = request.urlopen(token_request)
return process_urllib_response(token_response)['token']
def process_oauth2(self, request, response, www_authenticate_header):
# This keeps infinite auth loops from happening
full_url = request.full_url
self.auth_failure_tracker[full_url] += 1
if self.auth_failure_tracker[full_url] > 1:
raise HTTPError(full_url, 401, "Stopping Oauth2 failure loop for {}".format(full_url),
response.headers, response)
auth_token = self._get_outh2_token(www_authenticate_header)
request.add_unredirected_header('Authorization', 'Bearer ' + auth_token)
return self.parent.open(request, timeout=request.timeout)
better_urllib_get = OpenerDirector()
better_urllib_get.addheaders = DEFAULT_HEADERS.copy()
better_urllib_get.add_handler(HTTPHandler())
better_urllib_get.add_handler(HTTPSHandler())
better_urllib_get.add_handler(HTTPRedirectHandler())
better_urllib_get.add_handler(SocketFileHandler())
better_urllib_get.add_handler(Oauth2TokenAuthHandler())
class RegistryError(Exception):
def __init__(self, response):
self.response_obj = response
# Util functions
#############################################################################################
def parse_thresholds(spec, include_units=True, units_required=True):
"""
Given a spec string break it up into ':' separated chunks. Convert strings to ints as it makes sense
:param spec: The threshold specification being parsed
:param include_units: Specifies that units should be processed and returned if present
:param units_required: Mark spec as invalid if the units are missing.
:return: A list containing the thresholds in order of warn, crit, and units(if included and present)
"""
parts = deque(spec.split(':'))
if not all(parts):
raise ValueError("Blanks are not allowed in a threshold specification: {}".format(spec))
# Warn
warn = int(parts.popleft())
# Crit
crit = int(parts.popleft())
units = ''
if include_units:
if len(parts):
# units
units = parts.popleft()
elif units_required:
raise ValueError("Missing units in {}".format(spec))
if len(parts) != 0:
raise ValueError("Too many threshold specifiers in {}".format(spec))
return ThresholdSpec(warn=warn, crit=crit, units=units)
def pretty_time(seconds):
remainder = seconds
result = []
if remainder > 24 * 60 * 60:
days, remainder = divmod(remainder, 24 * 60 * 60)
result.append("{}d".format(int(days)))
if remainder > 60 * 60:
hours, remainder = divmod(remainder, 60 * 60)
result.append("{}h".format(int(hours)))
if remainder > 60:
minutes, remainder = divmod(remainder, 60)
result.append("{}min".format(int(minutes)))
result.append("{}s".format(int(remainder)))
return result
def evaluate_numeric_thresholds(container, value, thresholds, name, short_name,
min=None, max=None, greater_than=True):
rounder = lambda x: round(x, 2)
INTEGER_UNITS = ['B', '%', '']
# Some units don't have decimal places
rounded_value = int(value) if thresholds.units in INTEGER_UNITS else rounder(value)
perf_string = "{container}_{short_name}={value}{units};{warn};{crit}".format(
container=container,
short_name=short_name,
value=rounded_value,
**thresholds)
if min is not None:
rounded_min = math.floor(min) if thresholds.units in INTEGER_UNITS else rounder(min)
perf_string += ';{}'.format(rounded_min)
if max is not None:
rounded_max = math.ceil(max) if thresholds.units in INTEGER_UNITS else rounder(max)
perf_string += ';{}'.format(rounded_max)
global performance_data
performance_data.append(perf_string)
if thresholds.units == 's':
nice_time = ' '.join(pretty_time(rounded_value)[:2])
results_str = "{} {} is {}".format(container, name, nice_time)
else:
results_str = "{} {} is {}{}".format(container, name, rounded_value, thresholds.units)
if greater_than:
comparator = lambda value, threshold: value >= threshold
else:
comparator = lambda value, threshold: value <= threshold
if comparator(value, thresholds.crit):
critical(results_str)
elif comparator(value, thresholds.warn):
warning(results_str)
else:
ok(results_str)
@lru_cache(maxsize=None)
def get_url(url):
logger.debug("get_url: {}".format(url))
response = better_urllib_get.open(url, timeout=timeout)
logger.debug("get_url: {} {}".format(url, response.status))
return process_urllib_response(response), response.status
def process_urllib_response(response):
response_bytes = response.read()
body = response_bytes.decode('utf-8')
# logger.debug("BODY: {}".format(body))
return json.loads(body)
def get_container_info(name):
content, _ = get_url(daemon + '/containers/{container}/json'.format(container=name))
return content
def get_image_info(name):
content, _ = get_url(daemon + '/images/{image}/json'.format(image=name))
return content
def get_state(container):
return get_container_info(container)['State']
def get_stats(container):
content, _ = get_url(daemon + '/containers/{container}/stats?stream=0'.format(container=container))
return content
def get_ps_name(name_list):
# Pick the name that starts with a '/' but doesn't contain a '/' and return that value
for name in name_list:
if '/' not in name[1:] and name[0] == '/':
return name[1:]
else:
raise NameError("Error when trying to identify 'ps' name in {}".format(name_list))
def get_containers(names, require_present):
containers_list, _ = get_url(daemon + '/containers/json?all=1')
all_container_names = set(get_ps_name(x['Names']) for x in containers_list)
if 'all' in names:
return all_container_names
filtered = set()
for matcher in names:
found = False
for candidate in all_container_names:
if re.match("^{}$".format(matcher), candidate):
filtered.add(candidate)
found = True
# If we don't find a container that matches out regex
if require_present and not found:
critical("No containers match {}".format(matcher))
return filtered
def get_container_image_id(container):
# find registry and tag
inspection = get_container_info(container)
return inspection['Image']
def get_container_image_urls(container):
inspection = get_container_info(container)
image_id = inspection['Image']
image_info = get_image_info(image_id)
return image_info['RepoTags']
def normalize_image_name_to_manifest_url(image_name, insecure_registries):
parsed_url = parse_image_name(image_name)
lower_insecure = [reg.lower() for reg in insecure_registries]
# Registry query url
scheme = 'http' if parsed_url.registry.lower() in lower_insecure else 'https'
url = '{scheme}://{registry}/v2/{image_name}/manifests/{image_tag}'.format(scheme=scheme,
registry=parsed_url.registry,
image_name=parsed_url.name,
image_tag=parsed_url.tag)
return url, parsed_url.registry
# Auth servers seem picky about being hit too hard. Can't figure out why. ;)
# As result it is best to single thread this check
# This is based on https://docs.docker.com/registry/spec/auth/token/#requesting-a-token
def get_digest_from_registry(url):
logger.debug("get_digest_from_registry")
# query registry
# TODO: Handle logging in if needed
registry_info, status_code = get_url(url=url)
if status_code != 200:
raise RegistryError(response=registry_info)
return registry_info['config'].get('digest', None)
def set_rc(new_rc):
global rc
rc = new_rc if new_rc > rc else rc
def ok(message):
set_rc(OK_RC)
messages.append('OK: ' + message)
def warning(message):
set_rc(WARNING_RC)
messages.append('WARNING: ' + message)
def critical(message):
set_rc(CRITICAL_RC)
messages.append('CRITICAL: ' + message)
def unknown(message):
set_rc(UNKNOWN_RC)
messages.append('UNKNOWN: ' + message)
def require_running(name):
def inner_decorator(func):
def wrapper(container, *args, **kwargs):
container_state = get_state(container)
state = normalize_state(container_state)
if state.lower() == "running":
func(container, *args, **kwargs)
else:
# container is not running, can't perform check
critical('{container} is not "running", cannot check {check}"'.format(container=container,
check=name))
return wrapper
return inner_decorator
def multithread_execution(disable_threading=DISABLE_THREADING):
def inner_decorator(func):
def wrapper(container, *args, **kwargs):
if DISABLE_THREADING:
func(container, *args, **kwargs)
else:
threads.append(parallel_executor.submit(func, container, *args, **kwargs))
return wrapper
return inner_decorator
def singlethread_execution(disable_threading=DISABLE_THREADING):
def inner_decorator(func):
def wrapper(container, *args, **kwargs):
if DISABLE_THREADING:
func(container, *args, **kwargs)
else:
threads.append(serial_executor.submit(func, container, *args, **kwargs))
return wrapper
return inner_decorator
def parse_image_name(image_name):
"""
Parses image names into their constituent parts.
:param image_name:
:return: ImageName
"""
# These are based on information found here
# https://docs.docker.com/engine/reference/commandline/tag/#extended-description
# https://github.com/docker/distribution/blob/master/reference/regexp.go
host_segment_re = '[a-zA-Z0-9]([a-zA-Z0-9-]*[a-zA-Z0-9])?'
hostname_re = r'({host_segment}\.)+{host_segment}'.format(host_segment=host_segment_re)
registry_re = r'((?P<registry>({hostname_re}(:\d+)?|{host_segment_re}:\d+))/)'.format(
host_segment_re=host_segment_re, hostname_re=hostname_re)
name_component_ends_re = '[a-z0-9]'
name_component_middle_re = '[a-z0-9._-]' # Ignoring spec limit of two _
name_component_re = '({end}{middle}*{end}|{end})'.format(end=name_component_ends_re,
middle=name_component_middle_re)
image_name_re = "(?P<image_name>({name_component}/)*{name_component})".format(name_component=name_component_re)
image_tag_re = '(?P<image_tag>[a-zA-Z0-9_][a-zA-Z0-9_.-]*)'
full_re = '^{registry}?{image_name}(:{image_tag})?$'.format(registry=registry_re, image_name=image_name_re,
image_tag=image_tag_re)
parsed = re.match(full_re, image_name)
registry = parsed.group('registry') if parsed.group('registry') else DEFAULT_PUBLIC_REGISTRY
image_name = parsed.group('image_name')
image_name = image_name if '/' in image_name or registry != DEFAULT_PUBLIC_REGISTRY else 'library/' + image_name
image_tag = parsed.group('image_tag')
image_tag = image_tag if image_tag else 'latest'
full_image_name = "{registry}/{image_name}:{image_tag}".format(
registry=registry,
image_name=image_name,
image_tag=image_tag)
return ImageName(registry=registry, name=image_name, tag=image_tag, full_name=full_image_name)
def normalize_state(status_info):
# Ugh, docker used to report state in as silly way then they figured out how to do it better.
# This tries the simpler new way and if that doesn't work fails back to the old way
# On new docker engines the status holds whatever the current state is, running, stopped, paused, etc.
if "Status" in status_info:
return status_info['Status']
status = 'Exited'
if status_info["Restarting"]:
status = 'Restarting'
elif status_info["Paused"]:
status = 'Paused'
elif status_info["Dead"]:
status = 'Dead'
elif status_info["Running"]:
return "Running"
return status
# Checks
#############################################################################################
@multithread_execution()
@require_running(name='memory')
def check_memory(container, thresholds):
if not thresholds.units in unit_adjustments:
unknown("Memory units must be one of {}".format(list(unit_adjustments.keys())))
return
inspection = get_stats(container)
# Subtracting cache to match what `docker stats` does.
adjusted_usage = inspection['memory_stats']['usage'] - inspection['memory_stats']['stats']['total_cache']
if thresholds.units == '%':
max = 100
usage = int(100 * adjusted_usage / inspection['memory_stats']['limit'])
else:
max = inspection['memory_stats']['limit'] / unit_adjustments[thresholds.units]
usage = adjusted_usage / unit_adjustments[thresholds.units]
evaluate_numeric_thresholds(container=container, value=usage, thresholds=thresholds, name='memory',
short_name='mem', min=0, max=max)
@multithread_execution()
def check_status(container, desired_state):
normized_desired_state = desired_state.lower()
normalized_state = normalize_state(get_state(container)).lower()
if normized_desired_state != normalized_state:
critical("{} state is not {}".format(container, desired_state))
return
ok("{} status is {}".format(container, desired_state))
@multithread_execution()
@require_running('health')
def check_health(container):
state = get_state(container)
if "Health" in state and "Status" in state["Health"]:
health = state["Health"]["Status"]
message = "{} is {}".format(container, health)
if health == 'healthy':
ok(message)
elif health == 'unhealthy':
critical(message)
else:
unknown(message)
else:
unknown('{} has no health check data'.format(container))
@multithread_execution()
@require_running('uptime')
def check_uptime(container, thresholds):
inspection = get_container_info(container)['State']['StartedAt']
only_secs = inspection[0:19]
start = datetime.strptime(only_secs, "%Y-%m-%dT%H:%M:%S")
start = start.replace(tzinfo=timezone.utc)
now = datetime.now(timezone.utc)
uptime = (now - start).total_seconds()
graph_padding = 2
thresholds.units = 's'
evaluate_numeric_thresholds(container=container, value=uptime, thresholds=thresholds, name='uptime',
short_name='up', min=0, max=graph_padding, greater_than=False)
@multithread_execution()
def check_image_age(container, thresholds):
container_image = get_container_info(container)['Image']
image_created = get_image_info(container_image)['Created']
only_secs = image_created[0:19]
start = datetime.strptime(only_secs, "%Y-%m-%dT%H:%M:%S")
start = start.replace(tzinfo=timezone.utc)
now = datetime.now(timezone.utc)
image_age = (now - start).days
graph_padding = 2
thresholds.units = 'd'
evaluate_numeric_thresholds(container=container, value=image_age, thresholds=thresholds, name='image_age',
short_name='age', min=0, max=graph_padding, greater_than=True)
@multithread_execution()
@require_running('restarts')
def check_restarts(container, thresholds):
inspection = get_container_info(container)
restarts = int(inspection['RestartCount'])
graph_padding = 2
evaluate_numeric_thresholds(container=container, value=restarts, thresholds=thresholds, name='restarts',
short_name='re', min=0, max=graph_padding)
@singlethread_execution()
def check_version(container, insecure_registries):
image_id = get_container_image_id(container)
logger.debug("Local container image ID: {}".format(image_id))
if image_id is None:
unknown('Checksum missing for "{}", try doing a pull'.format(container))
return
image_urls = get_container_image_urls(container=container)
if len(image_urls) > 1:
unknown('"{}" has multiple tags/names. Unsure which one to use to check the version.'.format(container))
return
elif len(image_urls) == 0:
unknown('"{}" has last no repository tag. Is this anywhere else?'.format(container))
return
url, registry = normalize_image_name_to_manifest_url(image_urls[0], insecure_registries)
logger.debug("Looking up image digest here {}".format(url))
try:
registry_hash = get_digest_from_registry(url)
except URLError as e:
if hasattr(e.reason, 'reason') and e.reason.reason == 'UNKNOWN_PROTOCOL':
unknown(
"TLS error connecting to registry {} for {}, should you use the '--insecure-registry' flag?" \
.format(registry, container))
return
elif hasattr(e.reason, 'strerror') and e.reason.strerror == 'nodename nor servname provided, or not known':
unknown(
"Cannot reach registry for {} at {}".format(container, url))
return
else:
raise e
except RegistryError as e:
unknown("Cannot check version, couldn't retrieve digest for {} while checking {}.".format(container, url))
return
logger.debug("Image digests, local={} remote={}".format(image_id, registry_hash))
if registry_hash == image_id:
ok("{}'s version matches registry".format(container))
return
critical("{}'s version does not match registry".format(container))
def calculate_cpu_capacity_precentage(info, stats):
host_config = info['HostConfig']
if 'online_cpus' in stats['cpu_stats']:
num_cpus = stats['cpu_stats']['online_cpus']
else:
num_cpus = len(stats['cpu_stats']['cpu_usage']['percpu_usage'])
# Identify limit system being used
# --cpus
if 'NanoCpus' in host_config and host_config['NanoCpus'] != 0:
period = 1000000000
quota = host_config['NanoCpus']
# --cpu-quota
elif 'CpuQuota' in host_config and host_config['CpuQuota'] != 0:
period = 100000 if host_config['CpuPeriod'] == 0 else host_config['CpuPeriod']
quota = host_config['CpuQuota']
# unlimited
else:
period = 1
quota = num_cpus
if period * num_cpus < quota:
# This handles the case where the quota is actually bigger than amount available by all the cpus.
available_limit_ratio = 1
else:
available_limit_ratio = (period * num_cpus) / quota
cpu_delta = stats['cpu_stats']['cpu_usage']['total_usage'] - stats['precpu_stats']['cpu_usage']['total_usage']
system_delta = stats['cpu_stats']['system_cpu_usage'] - stats['precpu_stats']['system_cpu_usage']
usage = (cpu_delta / system_delta) * available_limit_ratio
usage = round(usage * 100, 0)
return usage
@multithread_execution()
@require_running('cpu')
def check_cpu(container, thresholds):
info = get_container_info(container)
stats = get_stats(container=container)
usage = calculate_cpu_capacity_precentage(info=info, stats=stats)
max = 100
thresholds.units = '%'
evaluate_numeric_thresholds(container=container, value=usage, thresholds=thresholds, name='cpu', short_name='cpu',
min=0, max=max)
def process_args(args):
parser = argparse.ArgumentParser(description='Check docker containers.')
# Connect to local socket or ip address
connection_group = parser.add_mutually_exclusive_group()
connection_group.add_argument('--connection',
dest='connection',
action='store',
default=DEFAULT_SOCKET,
type=str,
metavar='[/<path to>/docker.socket|<ip/host address>:<port>]',
help='Where to find docker daemon socket. (default: %(default)s)')
connection_group.add_argument('--secure-connection',
dest='secure_connection',
action='store',
type=str,
metavar='[<ip/host address>:<port>]',
help='Where to find TLS protected docker daemon socket.')
base_group = parser.add_mutually_exclusive_group()
base_group.add_argument('--binary_units',
dest='units_base',
action='store_const',
const=1024,
help='Use a base of 1024 when doing calculations of KB, MB, GB, & TB (This is default)')
base_group.add_argument('--decimal_units',
dest='units_base',
action='store_const',
const=1000,
help='Use a base of 1000 when doing calculations of KB, MB, GB, & TB')
parser.set_defaults(units_base=1024)
# Connection timeout
parser.add_argument('--timeout',
dest='timeout',
action='store',
type=float,
default=DEFAULT_TIMEOUT,
help='Connection timeout in seconds. (default: %(default)s)')
# Container name
parser.add_argument('--containers',
dest='containers',
action='store',
nargs='+',
type=str,
default=['all'],
help='One or more RegEx that match the names of the container(s) to check. If omitted all containers are checked. (default: %(default)s)')
# Container name
parser.add_argument('--present',
dest='present',
default=False,
action='store_true',
help='Modifies --containers so that each RegEx must match at least one container.')
# Threads
parser.add_argument('--threads',
dest='threads',
default=DEFAULT_PARALLELISM,
action='store',
type=int,
help='This + 1 is the maximum number of concurent threads/network connections. (default: %(default)s)')
# CPU
parser.add_argument('--cpu',
dest='cpu',
action='store',
type=str,
metavar='WARN:CRIT',
help='Check cpu usage percentage taking into account any limits.')
# Memory
parser.add_argument('--memory',
dest='memory',
action='store',
type=str,
metavar='WARN:CRIT:UNITS',
help='Check memory usage taking into account any limits. Valid values for units are %%,B,KB,MB,GB.')
# State
parser.add_argument('--status',
dest='status',
action='store',
type=str,
help='Desired container status (running, exited, etc).')
# Health
parser.add_argument('--health',
dest='health',
default=None,
action='store_true',
help="Check container's health check status")
# Age
parser.add_argument('--uptime',
dest='uptime',
action='store',
type=str,
metavar='WARN:CRIT',
help='Minimum container uptime in seconds. Use when infrequent crashes are tolerated.')
# Image Age
parser.add_argument('--image-age',
dest='image_age',
action='store',
type=str,
metavar='WARN:CRIT',
help='Maximum image age in days.')
# Version
parser.add_argument('--version',
dest='version',
default=None,
action='store_true',
help='Check if the running images are the same version as those in the registry. Useful for finding stale images. Does not support login.')
# Version
parser.add_argument('--insecure-registries',
dest='insecure_registries',
action='store',
nargs='+',
type=str,
default=[],
help='List of registries to connect to with http(no TLS). Useful when using "--version" with images from insecure registries.')
# Restart
parser.add_argument('--restarts',
dest='restarts',
action='store',
type=str,
metavar='WARN:CRIT',
help='Container restart thresholds.')
# no-ok
parser.add_argument('--no-ok',
dest='no_ok',
action='store_true',
help='Make output terse suppressing OK messages. If all checks are OK return a single OK.')
# no-performance
parser.add_argument('--no-performance',
dest='no_performance',
action='store_true',
help='Suppress performance data. Reduces output when performance data is not being used.')
parser.add_argument('-V', action='version', version='%(prog)s {}'.format(__version__))
if len(args) == 0:
parser.print_help()
parsed_args = parser.parse_args(args=args)
global timeout
timeout = parsed_args.timeout
global daemon
global connection_type
if parsed_args.secure_connection:
daemon = 'https://' + parsed_args.secure_connection
connection_type = 'https'
elif parsed_args.connection:
if parsed_args.connection[0] == '/':
daemon = 'socket://' + parsed_args.connection + ':'
connection_type = 'socket'
else:
daemon = 'http://' + parsed_args.connection
connection_type = 'http'
return parsed_args
def no_checks_present(parsed_args):
# Look for all functions whose name starts with 'check_'
checks = [key[6:] for key in globals().keys() if key.startswith('check_')]
# Act like --present is a check though it is not implemented like one
return all(getattr(parsed_args, check) is None for check in checks) and not parsed_args.present
def socketfile_permissions_failure(parsed_args):
if connection_type == 'socket':
return not (os.path.exists(parsed_args.connection)
and stat.S_ISSOCK(os.stat(parsed_args.connection).st_mode)
and os.access(parsed_args.connection, os.R_OK)
and os.access(parsed_args.connection, os.W_OK))
else:
return False
def print_results():
if no_ok:
# Remove all the "OK"s
filtered_messages = [message for message in messages if not message.startswith('OK: ')]
if len(filtered_messages) == 0:
messages_concat = 'OK'
else:
messages_concat = '; '.join(filtered_messages)
else:
messages_concat = '; '.join(messages)
if no_performance or len(performance_data) == 0:
print(messages_concat)
else:
perfdata_concat = ' '.join(performance_data)
print(messages_concat + '|' + perfdata_concat)
def perform_checks(raw_args):
args = process_args(raw_args)
global parallel_executor
parallel_executor = futures.ThreadPoolExecutor(max_workers=args.threads)
global serial_executor
serial_executor = futures.ThreadPoolExecutor(max_workers=1)
global unit_adjustments
unit_adjustments = {key: args.units_base ** value for key, value in UNIT_ADJUSTMENTS_TEMPLATE.items()}
global no_ok
no_ok = args.no_ok
global no_performance
no_performance = args.no_ok
if socketfile_permissions_failure(args):
unknown("Cannot access docker socket file. User ID={}, socket file={}".format(os.getuid(), args.connection))
return
if args.containers == ["all"] and args.present:
unknown("You can not use --present without --containers")
return
if no_checks_present(args):
unknown("No checks specified.")
return
# Here is where all the work happens
#############################################################################################
containers = get_containers(args.containers, args.present)
if len(containers) == 0 and not args.present:
unknown("No containers names found matching criteria")
return
for container in containers:
# Check status
if args.status:
check_status(container, args.status)
# Check version
if args.version:
check_version(container, args.insecure_registries)
# below are checks that require a 'running' status
# Check status
if args.health:
check_health(container)
# Check cpu usage
if args.cpu:
check_cpu(container, parse_thresholds(args.cpu, units_required=False))
# Check memory usage
if args.memory:
check_memory(container, parse_thresholds(args.memory, units_required=False))
# Check uptime
if args.uptime:
check_uptime(container, parse_thresholds(args.uptime, include_units=False))
# Check image age
if args.image_age:
check_image_age(container, parse_thresholds(args.image_age, include_units=False))
# Check restart count
if args.restarts:
check_restarts(container, parse_thresholds(args.restarts, include_units=False))
def main():
try:
perform_checks(argv[1:])
# get results to let exceptions in threads bubble out
[x.result() for x in futures.as_completed(threads)]
except Exception as e:
traceback.print_exc()
unknown("Exception raised during check': {}".format(repr(e)))
print_results()
exit(rc)
if __name__ == '__main__':
main()

View File

@ -7,25 +7,17 @@
# #
rr="/var/run/reboot-required" rr="/var/run/reboot-required"
rrpkgs="/var/run/reboot-required.pkgs"
# 604800 - 1 week in seconds # 604800 - 1 week in seconds
threshold="${1:-604800}" threshold="${1:-604800}"
if [ -f "$rr" ]; then if [ -f "$rr" ]; then
# We have a pending reboot; alert in different states depending on its age # We have a pending reboot; alert in different states depending on its age
lastmod=$(date +%s -r "$rr") lastmod=$(date +%s -r "$rr")
now=$(date +%s) now=$(date +%s)
pkgs="$(cat "$rr")"
if [ -f "$rrpkgs" ]; then
pkgs="$(cat "$rrpkgs")"
fi
if [ -z "$pkgs" ]; then
pkgs="(No output)"
fi
if (( now - lastmod > threshold )); then if (( now - lastmod > threshold )); then
echo "CRITICAL - Pending reboot older than $threshold seconds: $pkgs" echo "CRITICAL - Pending reboot older than $threshold seconds: $(cat "$rr")"
exit 2 exit 2
else else
echo "WARNING - Pending reboot: $pkgs" echo "WARNING - Pending reboot: $(cat "$rr")"
exit 1 exit 1
fi fi
else else